Ioakeim Ampartzidis scite author profile

Ioakeim Ampartzidis

3Publications

42Citation Statements Received

91Citation Statements Given

How they've been cited

How they cite others

201

Affiliations

Medical Research Council, University of Cambridge, Wellcome/MRC Cambridge Stem Cell Institute

Publications

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Cell non-autonomy amplifies disruption of neurulation by mosaic Vangl2 deletion in mice

Galea

Maniou²,

Edwards³

et al. 2021

Nat Commun

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Post-zygotic mutations that generate tissue mosaicism are increasingly associated with severe congenital defects, including those arising from failed neural tube closure. Here we report that neural fold elevation during mouse spinal neurulation is vulnerable to deletion of the VANGL planar cell polarity protein 2 (Vangl2) gene in as few as 16% of neuroepithelial cells. Vangl2-deleted cells are typically dispersed throughout the neuroepithelium, and each non-autonomously prevents apical constriction by an average of five Vangl2-replete neighbours. This inhibition of apical constriction involves diminished myosin-II localisation on neighbour cell borders and shortening of basally-extending microtubule tails, which are known to facilitate apical constriction. Vangl2-deleted neuroepithelial cells themselves continue to apically constrict and preferentially recruit myosin-II to their apical cell cortex rather than to apical cap localisations. Such non-autonomous effects can explain how post-zygotic mutations affecting a minority of cells can cause catastrophic failure of morphogenesis leading to clinically important birth defects.

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Microgel culture and spatial identity mapping elucidate the signalling requirements for primate epiblast and amnion formation

Munger

Kohler

Slatery

et al. 2022

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The early specification and rapid growth of extraembryonic membranes are distinctive hallmarks of primate embryogenesis. These complex tasks are resolved through an intricate combination of signals controlling the induction of extraembryonic lineages and, at the same time, safeguarding the pluripotent epiblast. Here, we delineate the signals orchestrating primate epiblast and amnion identity. We encapsulated marmoset pluripotent stem cells into agarose microgels and identified culture conditions for the development of epiblast- and amnion-spheroids. Spatial identity mapping authenticated spheroids generated in vitro by comparison to marmoset embryos in vivo. We leveraged the microgel system to functionally interrogate the signalling environment of the postimplantation primate embryo. Single-cell profiling of the resulting spheroids demonstrated that ACTIVIN/NODAL signalling is required for embryonic lineage identity. BMP4 promoted amnion formation and maturation, which was counteracted by FGF-signalling. Our combination of microgel culture, single-cell profiling and spatial identity mapping provides a powerful approach to decipher the essential cues for embryonic and extraembryonic lineage formation in primate embryogenesis.

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Author Correction: Cell non-autonomy amplifies disruption of neurulation by mosaic Vangl2 deletion in mice

Galea

Maniou²,

Edwards³

et al. 2021

Nat Commun

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